Introduction to Fourier Optics (J. W. Goodman) Topics: Two dimensional Fourier transform Diffraction Fourier transform lens Imaging (lens, holography, novel imaging techniques) Introduction to fiber optics Special topics and lab demos Policies: 1. Grading policy: Homework 30%, midterm 30%, Final 40% 2. Homework Policy.
Introduction and history of optics. Electromagnetic spectrum and electromagnetics-tissue imaging and interactions. Wave optics. Geometric optics. Basic optical elements. Scalar diffraction theory. Fourier optics. Interferometry and holography. Fiber optics. Quantum optics. Laser properties. Lasing conditions. Pumping. Resonant modes. Laser.
Two-Dimensional Imaging. Winter 2018-2019. Home. Class Info. Syllabus. References. Homework. Software. Announcements: Text. Fourier Analysis and Imaging, by R.N. Bracewell, Kluwer, New York, 2003. Other useful references. Other books which may serve as useful references are listed below. These will be put on reserve in Terman Engineering Library.
For courses in Optics. A Contemporary Approach to Optics with Practical Applications and New Focused Pedagogy. Hecht Optics balances theory and instrumentation and provides students with the necessary classical background through a lively and clear narrative. Optics, Fifth Edition is distinguished by three core imperatives: up-to-date content in line with the ever-evolving technological.
What is Fourier Optics? The way your camera lens collects and focuses light is governed by the physics of diffraction. Under many situations we can cast this diffraction problem in the form of a Fourier integral. Furthermore, since optical systems tend to be linear over a large range of light intensities, we can take advantage of all that we.
This course will introduce the materials, terminology, effects, and devices used in the field of liquid crystal optics. Basic structures in nematic and cholesteric liquid crystals will be discussed and related to optical phenomena like transmittance, absorption, scattering, birefringence and selective reflection (the effect seen in scarab beetles and utilized to protect the OMEGA laser at LLE.
Quiz 1: In lecture 8. Geometrical optics (1 hr, in class) Quiz 2: In lecture 21. Wave (Fourier) optics (1 hr, in class) Final Exam: Comprehensive upon all the material covered in the class. Policies. Please read the following policies carefully, as these will be followed without exception during the term. Collaboration and Homework Policies.
Fourier transform by a lens. Fourier optics and optical computing. Point spread function and modulation transmission function. Grating theory. Resolution criteria. Detectors. Optical and digital holography. Optical imaging of biological cells. Temporal and spatial coherences. Speckles analysis and application to flowing systems.
Joseph W. Goodman, Introduction to Fourier Optics, Fourth Edition (W. H. Freeman and Company, New York, 2017) Course Web Site and Course Materials The main web site for all course materials can be accessed from: blackboard.usc.edu Course materials (lecture notes, handouts, homework assignments, etc.) will be available to all.
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